"""
 @file
 @brief This file loads the Video Export dialog (i.e where is all preferences)
 @author Jonathan Thomas <jonathan@openshot.org>

 @section LICENSE

 Copyright (c) 2008-2018 OpenShot Studios, LLC
 (http://www.openshotstudios.com). This file is part of
 OpenShot Video Editor (http://www.openshot.org), an open-source project
 dedicated to delivering high quality video editing and animation solutions
 to the world.

 OpenShot Video Editor is free software: you can redistribute it and/or modify
 it under the terms of the GNU General Public License as published by
 the Free Software Foundation, either version 3 of the License, or
 (at your option) any later version.

 OpenShot Video Editor is distributed in the hope that it will be useful,
 but WITHOUT ANY WARRANTY; without even the implied warranty of
 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 GNU General Public License for more details.

 You should have received a copy of the GNU General Public License
 along with OpenShot Library.  If not, see <http://www.gnu.org/licenses/>.
 """
import copy
import functools
import locale
import os
import time
import tempfile
import math

import openshot

# Try to get the security-patched XML functions from defusedxml
try:
    from defusedxml import minidom as xml
except ImportError:
    from xml.dom import minidom as xml

from xml.parsers.expat import ExpatError

from PyQt5.QtCore import Qt, QCoreApplication, QTimer, QSize, pyqtSignal, pyqtSlot
from PyQt5.QtWidgets import (
    QMessageBox, QDialog, QFileDialog, QDialogButtonBox, QPushButton, QWidget, QLineEdit, QComboBox, QSpinBox, QCheckBox
)
from PyQt5.QtGui import QIcon
from functools import partial
from classes import info
from classes import ui_util
from classes import openshot_rc  # noqa
from classes.logger import log
from classes.app import get_app
from classes.metrics import track_metric_screen, track_metric_error
from classes.query import File

import json


class Export(QDialog):
    """ Export Dialog """

    # Path to ui file
    ui_path = os.path.join(info.PATH, 'windows', 'ui', 'export.ui')

    ExportStarted = pyqtSignal(str, int, int)
    ExportFrame = pyqtSignal(str, int, int, int, str)
    ExportEnded = pyqtSignal(str)

    def __init__(self, *args, **kwargs):
        super().__init__(*args, **kwargs)

        # Load UI from designer & init
        ui_util.load_ui(self, self.ui_path)
        ui_util.init_ui(self)

        # get translations & settings
        _ = get_app()._tr
        self.s = get_app().get_settings()

        track_metric_screen("export-screen")

        # Dynamically load tabs from settings data
        self.settings_data = self.s.get_all_settings()

        # Add buttons to interface
        self.cancel_button = QPushButton(_('Cancel'))
        self.cancel_button.setObjectName("cancelButton")
        self.export_button = QPushButton(_('Export Video'))
        self.export_button.setObjectName("acceptButton")
        self.close_button = QPushButton(_('Done'))
        self.restoring_defaults = False
        self.restore_defaults_button.clicked.connect(self.restore_defaults)

        self.buttonBox.addButton(self.close_button, QDialogButtonBox.RejectRole)
        self.buttonBox.addButton(self.export_button, QDialogButtonBox.AcceptRole)
        self.buttonBox.addButton(self.cancel_button, QDialogButtonBox.RejectRole)
        self.close_button.setVisible(False)
        self.exporting = False

        # Pause playback
        get_app().window.PauseSignal.emit()

        # Hide audio channels
        self.lblChannels.setVisible(False)
        self.txtChannels.setVisible(False)

        # Set OMP thread disabled flag (for stability)
        openshot.Settings.Instance().HIGH_QUALITY_SCALING = True

        # Copy project (so we don't change data in our current project)
        self.project = copy.deepcopy(get_app().project)

        # Clear timeline preview cache (to get more available memory)
        project_timeline = get_app().window.timeline_sync.timeline
        project_timeline.ClearAllCache()

        # Get the original timeline settings
        width = int(project_timeline.info.width)
        height = int(project_timeline.info.height)
        fps = project_timeline.info.fps
        sample_rate = int(project_timeline.info.sample_rate)
        channels = int(project_timeline.info.channels)
        channel_layout = int(project_timeline.info.channel_layout)

        # Create new "export" openshot.Timeline object
        self.timeline = openshot.Timeline(
            width, height, openshot.Fraction(fps.num, fps.den),
            sample_rate, channels, channel_layout)
        # Init various properties
        self.timeline.info.sample_rate = sample_rate
        self.timeline.info.channels = channels
        self.timeline.info.channel_layout = channel_layout
        self.timeline.info.has_audio = project_timeline.info.has_audio
        self.timeline.info.has_video = project_timeline.info.has_video
        self.timeline.info.video_length = project_timeline.info.video_length
        self.timeline.info.duration = project_timeline.info.duration

        # Load the "export" Timeline reader with the JSON from the real timeline
        try:
            json_timeline = json.dumps(self.project._data)
            self.timeline.SetJson(json_timeline)
        except Exception as ex:
            msg = QMessageBox()
            msg.setWindowTitle(_("Project Data Error"))
            msg.setText(_("Sorry, an error was encountered while parsing your project data: \n'%(error)s'.\n\n"
                          "Please save your project and inspect in a JSON editor to repair." %
                          {"error": str(ex)}))
            msg.exec_()
            return

        # Open the "export" Timeline reader
        self.timeline.Open()

        # Default export path
        recommended_path = self.s.getDefaultPath(self.s.actionType.EXPORT)
        self.txtExportFolder.setText(recommended_path)

        # Is this a saved project?
        if not get_app().project.current_filepath:
            # Not saved yet
            self.txtFileName.setText(_("Untitled Project"))
        else:
            # Yes, project is saved
            # Get just the filename
            filename = os.path.basename(get_app().project.current_filepath)
            filename = os.path.splitext(filename)[0]
            self.txtFileName.setText(filename)

        # Default image type
        self.txtImageFormat.setText("-%05d.png")

        # Loop through Export To options
        export_options = [_("Video & Audio"), _("Video Only"), _("Audio Only"), _("Image Sequence")]
        for option in export_options:
            # append profile to list
            self.cboExportTo.addItem(option)

        # Add channel layouts
        self.channel_layout_choices = []
        for layout in [(openshot.LAYOUT_MONO, _("Mono (1 Channel)")),
                       (openshot.LAYOUT_STEREO, _("Stereo (2 Channel)")),
                       (openshot.LAYOUT_SURROUND, _("Surround (3 Channel)")),
                       (openshot.LAYOUT_5POINT1, _("Surround (5.1 Channel)")),
                       (openshot.LAYOUT_7POINT1, _("Surround (7.1 Channel)"))]:
            log.info(layout)
            self.channel_layout_choices.append(layout[0])
            self.cboChannelLayout.addItem(layout[1], layout[0])

        # Connect signals
        self.btnBrowse.clicked.connect(functools.partial(self.btnBrowse_clicked))
        self.cboSimpleProjectType.currentIndexChanged.connect(
            functools.partial(self.cboSimpleProjectType_index_changed, self.cboSimpleProjectType))
        self.cboProfile.currentIndexChanged.connect(functools.partial(self.cboProfile_index_changed, self.cboProfile))
        self.cboSimpleTarget.currentIndexChanged.connect(
            functools.partial(self.cboSimpleTarget_index_changed, self.cboSimpleTarget))
        self.cboSimpleVideoProfile.currentIndexChanged.connect(
            functools.partial(self.cboSimpleVideoProfile_index_changed, self.cboSimpleVideoProfile))
        self.cboSimpleQuality.currentIndexChanged.connect(
            functools.partial(self.cboSimpleQuality_index_changed, self.cboSimpleQuality))
        self.cboChannelLayout.currentIndexChanged.connect(self.updateChannels)
        self.ExportFrame.connect(self.updateProgressBar)
        self.btnBrowseProfiles.clicked.connect(self.btnBrowseProfiles_clicked)
        self.checkStartFirstClip.toggled.connect(partial(self.updateFrameRate, True))
        self.checkEndLastClip.toggled.connect(partial(self.updateFrameRate, True))

        # ********* Advanced Profile List **********
        # Loop through profiles
        self.profile_names = []
        self.profile_paths = {}
        self.current_project_profile = get_app().project.get(['profile'])
        self.selected_profile = None
        for profile_folder in [info.USER_PROFILES_PATH, info.PROFILES_PATH]:
            for file in reversed(sorted(os.listdir(profile_folder))):
                profile_path = os.path.join(profile_folder, file)
                if os.path.isdir(profile_path):
                    continue
                try:
                    # Load Profile
                    profile = openshot.Profile(profile_path)

                    # Add description of Profile to list
                    profile_name = f"{profile.info.description} ({profile.info.width}x{profile.info.height})"
                    self.profile_names.append(profile_name)
                    self.profile_paths[profile_name] = profile_path

                    # Add to dropdown
                    self.cboProfile.addItem(
                        self.getProfileName(self.getProfilePath(profile_name)), self.getProfilePath(profile_name))

                    # Set default profile (if it matches the project)
                    if self.current_project_profile == profile.info.description:
                        self.selected_profile = profile_name

                except RuntimeError as e:
                    # This exception occurs when there's a problem parsing the Profile file - display a message and continue
                    log.error("Failed to parse file '%s' as a profile: %s" % (profile_path, e))

        # Loop through sorted profiles
        for profile_name in sorted(self.profile_names):
            # Add to dropdown
            self.cboProfile.addItem(self.getProfileName(self.getProfilePath(profile_name)),
                                    self.getProfilePath(profile_name))

        # ********* Simple Project Type **********
        # load the simple project type dropdown
        presets = []

        for preset_folder in [info.EXPORT_PRESETS_PATH, info.USER_PRESETS_PATH]:
            for file in os.listdir(preset_folder):
                preset_path = os.path.join(preset_folder, file)
                try:
                    xmldoc = xml.parse(preset_path)
                    type = xmldoc.getElementsByTagName("type")
                    presets.append(_(type[0].childNodes[0].data))

                except ExpatError as e:
                    # This indicates an invalid Preset file - display an error and continue
                    log.error("Failed to parse file '%s' as a preset: %s" % (preset_path, e))

        # Add first project type (always add this one first)
        all_formats_text = _("All Formats")
        self.cboSimpleProjectType.addItem(all_formats_text, all_formats_text)

        # Add remaining project types (exclude duplicates)
        presets = list(set(presets))
        for item in sorted(presets):
            if item != all_formats_text:
                self.cboSimpleProjectType.addItem(item, item)

        # Always select 'All Formats' option
        self.cboSimpleProjectType.setCurrentIndex(0)

        # Populate all profiles
        self.populateAllProfiles(get_app().project.get(['profile']))

        # Connect framerate signals
        self.txtFrameRateNum.valueChanged.connect(self.updateFrameRate)
        self.txtFrameRateDen.valueChanged.connect(self.updateFrameRate)
        self.txtWidth.valueChanged.connect(self.updateFrameRate)
        self.txtHeight.valueChanged.connect(self.updateFrameRate)
        self.txtSampleRate.valueChanged.connect(self.updateFrameRate)
        self.txtChannels.valueChanged.connect(self.updateFrameRate)
        self.cboChannelLayout.currentIndexChanged.connect(self.updateFrameRate)

        # Determine the length of the timeline (in frames)
        self.updateFrameRate()

        # Load previous settings (if any)
        self.load_settings()

    def restore_defaults(self):
        """
        Restore defaults by closing and reopening the dialog.
        """
        # Clear the saved settings
        get_app().updates.ignore_history = True
        get_app().updates.update(["export_settings"], None)
        get_app().updates.ignore_history = False

        log.info("Cleared last-export_settings.")

        # Close the current dialog
        self.restoring_defaults = True
        self.close()

        # Re-open the export dialog (calling the dialog anew)
        QTimer.singleShot(0, get_app().window.actionExportVideo.trigger)

    def getProfilePath(self, profile_name):
        """Get the profile path that matches the name"""
        for profile, path in self.profile_paths.items():
            if profile_name in profile:
                return path

    def getProfileName(self, profile_path):
        """Get the profile name that matches the name"""
        for profile, path in self.profile_paths.items():
            if profile_path == path:
                return profile

    @pyqtSlot(str, int, int, int, str)
    def updateProgressBar(self, title_message, start_frame, end_frame, current_frame, format_of_progress_string):
        """Update progress bar during exporting"""
        if end_frame - start_frame > 0:
            percentage_string = format_of_progress_string % (( current_frame - start_frame ) / ( end_frame - start_frame ) * 100)
        else:
            percentage_string = "100%"
        self.progressExportVideo.setValue(int(current_frame))
        self.progressExportVideo.setFormat(percentage_string)
        self.setWindowTitle("%s %s" % (percentage_string, title_message))

    def updateChannels(self):
        """Update the # of channels to match the channel layout"""
        log.info("updateChannels")
        channels = self.txtChannels.value()
        channel_layout = self.cboChannelLayout.currentData()

        if channel_layout == openshot.LAYOUT_MONO:
            channels = 1
        elif channel_layout == openshot.LAYOUT_STEREO:
            channels = 2
        elif channel_layout == openshot.LAYOUT_SURROUND:
            channels = 3
        elif channel_layout == openshot.LAYOUT_5POINT1:
            channels = 6
        elif channel_layout == openshot.LAYOUT_7POINT1:
            channels = 8

        # Update channels to match layout
        self.txtChannels.setValue(channels)

    def updateFrameRate(self, set_limits=True):
        """Callback for changing the frame rate"""
        # Adjust the main timeline reader
        self.timeline.info.width = self.txtWidth.value()
        self.timeline.info.height = self.txtHeight.value()
        self.timeline.info.fps.num = self.txtFrameRateNum.value()
        self.timeline.info.fps.den = self.txtFrameRateDen.value()
        self.timeline.info.sample_rate = self.txtSampleRate.value()
        self.timeline.info.channels = self.txtChannels.value()
        self.timeline.info.channel_layout = self.cboChannelLayout.currentData()

        # Disable audio (if not needed)
        if self.timeline.info.sample_rate == 0 or self.timeline.info.channels == 0:
            self.timeline.info.has_audio = False
        else:
            self.timeline.info.has_audio = True

        if set_limits:
            if self.checkEndLastClip.isChecked():
                # Set end frame to last clip (right edge)
                timeline_length_int = self.timeline.GetMaxFrame()
            else:
                # Set end frame to project length (full timeline)
                timeline_length_int = self.timeline.info.video_length

            if self.checkStartFirstClip.isChecked():
                # Set the start frame to the first clip position
                timeline_start_int = self.timeline.GetMinFrame()
            else:
                # Set the start frame to the start of the project (0.0)
                timeline_start_int = 1

            # Set the min and max frame numbers for this project
            self.txtStartFrame.setValue(timeline_start_int)
            self.txtEndFrame.setValue(timeline_length_int)

        # Calculate differences between editing/preview FPS and export FPS
        current_fps = get_app().project.get("fps")
        current_fps_float = float(current_fps["num"]) / float(current_fps["den"])
        new_fps_float = float(self.txtFrameRateNum.value()) / float(self.txtFrameRateDen.value())
        self.export_fps_factor = new_fps_float / current_fps_float
        self.original_fps_factor = current_fps_float / new_fps_float

    def cboSimpleProjectType_index_changed(self, widget, index):
        selected_project = widget.itemData(index)

        # set the target dropdown based on the selected project type
        # first clear the combo
        self.cboSimpleTarget.clear()

        # get translations
        _ = get_app()._tr

        # parse the xml files and get targets that match the project type
        project_types = []
        acceleration_types = {}
        for preset_folder in [info.EXPORT_PRESETS_PATH, info.USER_PRESETS_PATH]:
            for file in os.listdir(preset_folder):
                preset_path = os.path.join(preset_folder, file)
                try:
                    xmldoc = xml.parse(preset_path)
                    type = xmldoc.getElementsByTagName("type")

                    if _(type[0].childNodes[0].data) == selected_project:
                        titles = xmldoc.getElementsByTagName("title")
                        videocodecs = xmldoc.getElementsByTagName("videocodec")
                        for title in titles:
                            project_types.append(_(title.childNodes[0].data))
                        for codec in videocodecs:
                            codec_text = ""
                            if codec.childNodes:
                                codec_text = codec.childNodes[0].data
                            if "vaapi" in codec_text and openshot.FFmpegWriter.IsValidCodec(codec_text):
                                acceleration_types[_(title.childNodes[0].data)] = QIcon(":/hw/hw-accel-vaapi.svg")
                            elif "nvenc" in codec_text and openshot.FFmpegWriter.IsValidCodec(codec_text):
                                acceleration_types[_(title.childNodes[0].data)] = QIcon(":/hw/hw-accel-nvenc.svg")
                            elif "dxva2" in codec_text and openshot.FFmpegWriter.IsValidCodec(codec_text):
                                acceleration_types[_(title.childNodes[0].data)] = QIcon(":/hw/hw-accel-dx.svg")
                            elif "videotoolbox" in codec_text and openshot.FFmpegWriter.IsValidCodec(codec_text):
                                acceleration_types[_(title.childNodes[0].data)] = QIcon(":/hw/hw-accel-vtb.svg")
                            elif "qsv" in codec_text and openshot.FFmpegWriter.IsValidCodec(codec_text):
                                acceleration_types[_(title.childNodes[0].data)] = QIcon(":/hw/hw-accel-qsv.svg")
                            elif openshot.FFmpegWriter.IsValidCodec(codec_text) or codec_text == "":
                                acceleration_types[_(title.childNodes[0].data)] = QIcon(":/hw/hw-accel-none.svg")

                except ExpatError as e:
                    # This indicates an invalid Preset file - display an error and continue
                    log.error("Failed to parse file '%s' as a preset: %s" % (preset_path, e))

                # Free up DOM memory
                xmldoc.unlink()

        # Add all targets for selected project type
        preset_index = 0
        selected_preset = 0
        for item in sorted(project_types):
            icon = acceleration_types.get(item)
            if icon:
                self.cboSimpleTarget.setIconSize(QSize(60, 18))
                self.cboSimpleTarget.addItem(icon, item, item)
            else:
                continue

            # Find index of MP4/H.264
            if item == _("MP4 (h.264)"):
                selected_preset = preset_index

            preset_index += 1

        # Select MP4/H.264 as default
        self.cboSimpleTarget.setCurrentIndex(selected_preset)

    def cboProfile_index_changed(self, widget, index):
        selected_profile_path = widget.itemData(index)
        log.info(selected_profile_path)

        # get translations
        _ = get_app()._tr

        # Load profile
        profile = openshot.Profile(selected_profile_path)

        # Load profile settings into advanced editor
        self.txtWidth.setValue(profile.info.width)
        self.txtHeight.setValue(profile.info.height)
        self.txtFrameRateDen.setValue(profile.info.fps.den)
        self.txtFrameRateNum.setValue(profile.info.fps.num)
        self.txtAspectRatioNum.setValue(profile.info.display_ratio.num)
        self.txtAspectRatioDen.setValue(profile.info.display_ratio.den)
        self.txtPixelRatioNum.setValue(profile.info.pixel_ratio.num)
        self.txtPixelRatioDen.setValue(profile.info.pixel_ratio.den)

        # Load the interlaced options
        self.cboInterlaced.clear()
        self.cboInterlaced.addItem(_("No"), "No")
        self.cboInterlaced.addItem(_("Yes Top field first"), "Yes")
        self.cboInterlaced.addItem(_("Yes Bottom field first"), "Yes")
        if profile.info.interlaced_frame:
            self.cboInterlaced.setCurrentIndex(1)
        else:
            self.cboInterlaced.setCurrentIndex(0)

    def cboSimpleTarget_index_changed(self, widget, index):
        selected_target = widget.itemData(index)
        log.info(selected_target)

        # get translations
        _ = get_app()._tr

        # don't do anything if the combo has been cleared
        if selected_target:
            profiles_list = []

            # Clear the following options (and remember current settings)
            previous_quality = self.cboSimpleQuality.currentIndex()
            if previous_quality < 0:
                previous_quality = self.cboSimpleQuality.count() - 1
            previous_profile = self.cboSimpleVideoProfile.currentText()
            if previous_profile:
                self.selected_profile = previous_profile
            self.cboSimpleVideoProfile.clear()
            self.cboSimpleQuality.clear()

            # parse the xml to return suggested profiles
            profile_index = 0
            all_profiles = False
            for preset_folder in [info.EXPORT_PRESETS_PATH, info.USER_PRESETS_PATH]:
                for file in os.listdir(preset_folder):
                    preset_path = os.path.join(preset_folder, file)
                    try:
                        xmldoc = xml.parse(preset_path)
                        title = xmldoc.getElementsByTagName("title")
                        if _(title[0].childNodes[0].data) == selected_target:
                            profiles = xmldoc.getElementsByTagName("projectprofile")

                            # get the basic profile
                            all_profiles = False
                            if profiles:
                                # Disable profile filter button
                                self.btnBrowseProfiles.setEnabled(False)

                                # if profiles are defined, show them
                                for profile in profiles:
                                    profiles_list.append(_(profile.childNodes[0].data))
                                profiles_list = sorted(profiles_list)
                            else:
                                # show all profiles
                                all_profiles = True

                                # Enable profile filter button
                                self.btnBrowseProfiles.setEnabled(True)
                                for profile_name in self.profile_names:
                                    profiles_list.append(profile_name)

                            # Allow targets to override the following setting (export to)
                            # Export to:  "Video & Audio", "Video Only", "Audio Only", "Image Sequence"
                            # Default to "Video & Audio" if XML export-to element missing
                            export_to_options = [_("Video & Audio"), _("Video Only"),
                                                 _("Audio Only"), _("Image Sequence")]
                            export_to = export_to_options[0]
                            if xmldoc.getElementsByTagName("export-to"):
                                export_to = _(xmldoc.getElementsByTagName("export-to")[0].childNodes[0].data)
                            if export_to in export_to_options:
                                self.cboExportTo.setCurrentIndex(export_to_options.index(export_to))

                            # get the video bit rate(s)
                            videobitrate = xmldoc.getElementsByTagName("videobitrate")
                            for rate in videobitrate:
                                v_l = rate.attributes["low"].value
                                v_m = rate.attributes["med"].value
                                v_h = rate.attributes["high"].value
                                self.vbr = {_("Low"): v_l, _("Med"): v_m, _("High"): v_h}

                            # get the audio bit rates
                            audiobitrate = xmldoc.getElementsByTagName("audiobitrate")
                            for audiorate in audiobitrate:
                                a_l = audiorate.attributes["low"].value
                                a_m = audiorate.attributes["med"].value
                                a_h = audiorate.attributes["high"].value
                                self.abr = {_("Low"): a_l, _("Med"): a_m, _("High"): a_h}

                            # get the remaining values
                            vf = xmldoc.getElementsByTagName("videoformat")
                            self.txtVideoFormat.setText(vf[0].childNodes[0].data)
                            vc = xmldoc.getElementsByTagName("videocodec")
                            if vc[0].childNodes:
                                self.txtVideoCodec.setText(vc[0].childNodes[0].data)
                            else:
                                self.txtVideoCodec.setText("")
                            sr = xmldoc.getElementsByTagName("samplerate")
                            self.txtSampleRate.setValue(int(sr[0].childNodes[0].data))
                            c = xmldoc.getElementsByTagName("audiochannels")
                            self.txtChannels.setValue(int(c[0].childNodes[0].data))
                            c = xmldoc.getElementsByTagName("audiochannellayout")

                            # check for compatible audio codec
                            ac = xmldoc.getElementsByTagName("audiocodec")
                            if ac[0].childNodes:
                                audio_codec_name = ac[0].childNodes[0].data
                                if audio_codec_name == "aac":
                                    # Determine which version of AAC encoder is available
                                    if openshot.FFmpegWriter.IsValidCodec("libfaac"):
                                        self.txtAudioCodec.setText("libfaac")
                                    elif openshot.FFmpegWriter.IsValidCodec("libvo_aacenc"):
                                        self.txtAudioCodec.setText("libvo_aacenc")
                                    elif openshot.FFmpegWriter.IsValidCodec("aac"):
                                        self.txtAudioCodec.setText("aac")
                                    else:
                                        # fallback audio codec
                                        self.txtAudioCodec.setText("ac3")
                                else:
                                    # fallback audio codec
                                    self.txtAudioCodec.setText(audio_codec_name)
                            else:
                                # no valid audio codec
                                self.txtAudioCodec.setText("")

                            for layout_index, layout in enumerate(self.channel_layout_choices):
                                if layout == int(c[0].childNodes[0].data):
                                    self.cboChannelLayout.setCurrentIndex(layout_index)
                                    break

                        # Free up DOM memory
                        xmldoc.unlink()

                    except ExpatError as e:
                        # This indicates an invalid Preset file - display an error and continue
                        log.error("Failed to parse file '%s' as a preset: %s" % (preset_path, e))

            # init the profiles combo
            for item in profiles_list:
                self.cboSimpleVideoProfile.addItem(
                    self.getProfileName(self.getProfilePath(item)), self.getProfilePath(item))

            # select the project's current profile
            profile_index = self.getVideoProfileIndex(self.selected_profile)
            if profile_index != -1:
                # Re-select project profile (if found in list)
                self.cboSimpleVideoProfile.setCurrentIndex(profile_index)
            else:
                # Previous profile not in list, so
                # default to first profile in list
                self.cboSimpleVideoProfile.setCurrentIndex(0)

            # set the quality combo
            # only populate with quality settings that exist
            if v_l or a_l:
                self.cboSimpleQuality.addItem(_("Low"), "Low")
            if v_m or a_m:
                self.cboSimpleQuality.addItem(_("Med"), "Med")
            if v_h or a_h:
                self.cboSimpleQuality.addItem(_("High"), "High")

            # Default to the highest quality setting (or previous quality setting)
            if previous_quality <= self.cboSimpleQuality.count() - 1:
                self.cboSimpleQuality.setCurrentIndex(previous_quality)
            else:
                self.cboSimpleQuality.setCurrentIndex(self.cboSimpleQuality.count() - 1)

    def getVideoProfileIndex(self, profile_name=None, profile_key=None):
        """Get the index of a profile name or profile key (-1 if not found)"""
        if profile_name:
            for index in range(self.cboSimpleVideoProfile.count()):
                combo_profile = self.cboSimpleVideoProfile.itemText(index)
                if combo_profile == profile_name:
                    return index
            return -1
        if profile_key:
            for index in range(self.cboSimpleVideoProfile.count()):
                combo_profile_path = self.cboSimpleVideoProfile.itemData(index)
                combo_profile = openshot.Profile(combo_profile_path)
                if combo_profile.Key() == profile_key:
                    return index
            return -1

    def cboSimpleVideoProfile_index_changed(self, widget, index):
        selected_profile_path = widget.itemData(index)
        log.info(selected_profile_path)

        # Populate the advanced profile list
        self.populateAllProfiles(selected_profile_path)

    def populateAllProfiles(self, selected_profile_path):
        """Populate the full list of profiles"""
        # Look for matching profile in advanced options
        for profile_index, profile_name in enumerate(self.profile_names):
            # Check for matching profile
            if self.getProfilePath(profile_name) == selected_profile_path:
                # Matched!
                self.cboProfile.setCurrentIndex(profile_index)
                break

    def cboSimpleQuality_index_changed(self, widget, index):
        selected_quality = widget.itemData(index)
        log.info(selected_quality)

        # get translations
        _ = get_app()._tr

        # Set the video and audio bitrates
        if selected_quality:
            self.txtVideoBitRate.setText(_(self.vbr[_(selected_quality)]))
            self.txtAudioBitrate.setText(_(self.abr[_(selected_quality)]))

    def btnBrowse_clicked(self):
        log.info("btnBrowse_clicked")

        # get translations
        _ = get_app()._tr
        default_path = self.s.getDefaultPath(self.s.actionType.EXPORT)

        # update export folder path
        file_path = QFileDialog.getExistingDirectory(self,
                                                     _("Choose a Folder..."),
                                                     default_path)

        # Don't change path if chosen path isn't valid
        if os.path.exists(file_path):
            self.s.setDefaultPath(self.s.actionType.EXPORT, file_path)
            self.txtExportFolder.setText(file_path)

    def btnBrowseProfiles_clicked(self):
        """Search profile button clicked"""
        # Get current selection profile object
        current_profile = openshot.Profile(self.cboSimpleVideoProfile.currentData())

        # Show dialog (init to current selection)
        from windows.profile import Profile
        log.debug("Showing profile dialog")
        win = Profile(current_profile.Key())
        # Run the dialog event loop - blocking interaction on this window during this time
        result = win.exec_()

        profile = win.selected_profile
        if result == QDialog.Accepted and profile:

            # select the project's current profile
            profile_index = self.getVideoProfileIndex(profile_key=profile.Key())
            if profile_index != -1:
                # Re-select project profile (if found in list)
                self.cboSimpleVideoProfile.setCurrentIndex(profile_index)
            else:
                # Previous profile not in list, so
                # default to first profile in list
                self.cboSimpleVideoProfile.setCurrentIndex(0)

    def convert_to_bytes(self, BitRateString):
        bit_rate_bytes = 0

        # split the string into pieces
        s = BitRateString.lower().split(" ")
        measurement = "kb"

        try:
            # Get Bit Rate
            if len(s) >= 2:
                raw_number_string = s[0]
                raw_measurement = s[1]

                # convert string number to float (based on locale settings)
                raw_number = locale.atof(raw_number_string)

                if "kb" in raw_measurement:
                    # Kbit to bytes
                    bit_rate_bytes = raw_number * 1000.0

                elif "mb" in raw_measurement:
                    # Mbit to bytes
                    bit_rate_bytes = raw_number * 1000.0 * 1000.0

                elif ("crf" in raw_measurement) or ("cqp" in raw_measurement):
                    # Just a number
                    if raw_number > 63:
                        raw_number = 63
                    if raw_number < 0:
                        raw_number = 0
                    bit_rate_bytes = raw_number

                elif "qp" in raw_measurement:
                    # Just a number
                    if raw_number > 255:
                        raw_number = 255
                    if raw_number < 0:
                        raw_number = 0
                    bit_rate_bytes = raw_number

        except:
            log.warning('Failed to convert bitrate string to bytes: %s' % BitRateString)

        # return the bit rate in bytes
        return str(int(bit_rate_bytes))

    def disableControls(self):
        """Disable all controls"""
        self.lblFileName.setEnabled(False)
        self.txtFileName.setEnabled(False)
        self.lblFolderPath.setEnabled(False)
        self.txtExportFolder.setEnabled(False)
        self.tabWidget.setEnabled(False)
        self.export_button.setEnabled(False)
        self.btnBrowse.setEnabled(False)

    def enableControls(self):
        """Enable all controls"""
        self.lblFileName.setEnabled(True)
        self.txtFileName.setEnabled(True)
        self.lblFolderPath.setEnabled(True)
        self.txtExportFolder.setEnabled(True)
        self.tabWidget.setEnabled(True)
        self.export_button.setEnabled(True)
        self.btnBrowse.setEnabled(True)

    def accept(self):
        """ Start exporting video """
        # Save export settings
        self.save_settings()

        # Build the export window title
        def titlestring(sec, fps, mess):
            formatstr = "%(hours)d:%(minutes)02d:%(seconds)02d " + mess + " (%(fps)5.2f FPS)"
            title_mes = _(formatstr) % {
                'hours': sec / 3600,
                'minutes': (sec / 60) % 60,
                'seconds': sec % 60,
                'fps': fps}
            return title_mes

        # get translations
        _ = get_app()._tr

        # Init some variables
        seconds_run = 0
        fps_encode = 0

        # Init progress bar
        self.progressExportVideo.setMinimum(int(self.txtStartFrame.value()))
        self.progressExportVideo.setMaximum(int(self.txtEndFrame.value()))
        self.progressExportVideo.setValue(int(self.txtStartFrame.value()))

        # Prompt error message
        if self.txtStartFrame.value() == self.txtEndFrame.value():
            msg = QMessageBox()
            msg.setWindowTitle(_("Export Error"))
            msg.setText(_("Sorry, please select a valid range of frames to export"))
            msg.exec_()

            # Do nothing
            self.enableControls()
            self.exporting = False
            return

        # Disable controls
        self.disableControls()
        self.exporting = True

        # Determine type of export (video+audio, video, audio, image sequences)
        # _("Video & Audio"), _("Video Only"), _("Audio Only"), _("Image Sequence")
        export_type = self.cboExportTo.currentText()

        # Determine final exported file path (and replace blank paths with default ones)
        default_filename = "Untitled Project"
        default_folder = os.path.join(info.HOME_PATH)
        if export_type == _("Image Sequence"):
            file_name_with_ext = "%s%s" % (self.txtFileName.text().strip() or default_filename, self.txtImageFormat.text().strip())
        else:
            file_ext = self.txtVideoFormat.text().strip()
            file_name_with_ext = self.txtFileName.text().strip() or default_filename
            # Append extension, if not already present
            if not file_name_with_ext.endswith(file_ext):
                file_name_with_ext = '{}.{}'.format(file_name_with_ext, file_ext)

        # Remove trailing whitespace, unless such a folder exists.
        folder_path = self.txtExportFolder.text().lstrip()
        if folder_path and not os.path.isdir(folder_path):
            log.debug("Folder path does not exist. Removing trailing whitespace.")
            if os.path.isdir(folder_path.rstrip()):
                log.debug("Directory %s does exist. Using it instead." % folder_path)
                folder_path = folder_path.rstrip()

        export_file_path = os.path.join(folder_path or default_folder, file_name_with_ext)
        log.info("Export path: %s" % export_file_path)

        # Check if filename is valid (by creating a blank file in a temporary place)
        try:
            open(os.path.join(tempfile.gettempdir(), file_name_with_ext), 'w')
        except OSError:
            # Invalid path detected, so use default file name instead
            file_name_with_ext = "%s.%s" % (default_filename, self.txtVideoFormat.text().strip())
            export_file_path = os.path.join(self.txtExportFolder.text().strip() or default_folder, file_name_with_ext)
            log.info("Invalid export path detected, changing to: %s" % export_file_path)

        file = File.get(path=export_file_path)
        if file:
            ret = QMessageBox.question(self,
                _("Export Video"),
                _("%s is an input file.\nPlease choose a different name.") % file_name_with_ext,
                QMessageBox.Ok)
            self.enableControls()
            self.exporting = False
            return

        # Handle exception
        if os.path.exists(export_file_path) and export_type in [_("Video & Audio"), _("Video Only"), _("Audio Only")]:
            # File already exists! Prompt user
            ret = QMessageBox.question(self,
                _("Export Video"),
                _("%s already exists.\nDo you want to replace it?") % file_name_with_ext,
                QMessageBox.No | QMessageBox.Yes)
            if ret == QMessageBox.No:
                # Stop and don't do anything
                # Re-enable controls
                self.enableControls()
                self.exporting = False
                return

        # Init export settings
        interlacedIndex = self.cboInterlaced.currentIndex()
        video_settings = {  "vformat": self.txtVideoFormat.text(),
                            "vcodec": self.txtVideoCodec.text(),
                            "fps": { "num" : self.txtFrameRateNum.value(), "den": self.txtFrameRateDen.value()},
                            "width": self.txtWidth.value(),
                            "height": self.txtHeight.value(),
                            "pixel_ratio": {"num": self.txtPixelRatioNum.value(), "den": self.txtPixelRatioDen.value()},
                            "video_bitrate": int(self.convert_to_bytes(self.txtVideoBitRate.text())),
                            "start_frame": self.txtStartFrame.value(),
                            "end_frame": self.txtEndFrame.value(),
                            "interlace": interlacedIndex in [1, 2],
                            "topfirst": interlacedIndex == 1
                          }

        audio_settings = {"acodec": self.txtAudioCodec.text(),
                          "sample_rate": self.txtSampleRate.value(),
                          "channels": self.txtChannels.value(),
                          "channel_layout": self.cboChannelLayout.currentData(),
                          "audio_bitrate": int(self.convert_to_bytes(self.txtAudioBitrate.text()))
                          }

        # Override vcodec and format for Image Sequences
        if export_type == _("Image Sequence"):
            image_ext = os.path.splitext(self.txtImageFormat.text().strip())[1].replace(".", "")
            video_settings["vformat"] = image_ext
            if image_ext in ["jpg", "jpeg"]:
                video_settings["vcodec"] = "mjpeg"
            else:
                video_settings["vcodec"] = image_ext

        # Store updated export folder path in project file
        settings = get_app().get_settings()
        settings.setDefaultPath(settings.actionType.EXPORT, export_file_path)
        # Mark project file as unsaved
        get_app().project.has_unsaved_changes = True

        # Set lossless cache settings (temporarily)
        export_cache_object = openshot.CacheMemory(500)
        self.timeline.SetCache(export_cache_object)

        # Rescale all keyframes (if needed)
        if self.export_fps_factor != 1.0:
            # Update project data with rescaled keyframes
            self.project.rescale_keyframes(self.export_fps_factor)

            # Apply new profile (and any FPS precision updates) to project data
            profile = openshot.Profile(self.cboSimpleVideoProfile.currentData())
            self.project.apply_profile(profile)

            # Update the timeline with rescaled keyframes and adjusted profile's FPS precision
            self.timeline.SetJson(json.dumps(self.project._data))

        # Re-update the timeline FPS again (since the timeline just got clobbered)
        self.updateFrameRate(set_limits=False)

        # Set MaxSize (so we don't have any downsampling)
        self.timeline.SetMaxSize(video_settings.get("width"), video_settings.get("height"))

        # Apply mappers to timeline readers
        self.timeline.ApplyMapperToClips()

        # Initialize
        max_frame = 0

        # Precision of the progress bar
        format_of_progress_string = "%4.1f%% "

        # Create FFmpegWriter
        try:
            w = openshot.FFmpegWriter(export_file_path)

            # Set video options
            if export_type in [_("Video & Audio"), _("Video Only"), _("Image Sequence")]:
                w.SetVideoOptions(True,
                                  video_settings.get("vcodec"),
                                  openshot.Fraction(video_settings.get("fps").get("num"),
                                                    video_settings.get("fps").get("den")),
                                  video_settings.get("width"),
                                  video_settings.get("height"),
                                  openshot.Fraction(video_settings.get("pixel_ratio").get("num"),
                                                    video_settings.get("pixel_ratio").get("den")),
                                  video_settings.get("interlace"),
                                  video_settings.get("topfirst"),
                                  video_settings.get("video_bitrate"))

            # Set audio options
            if export_type in [_("Video & Audio"), _("Audio Only")]:
                w.SetAudioOptions(True,
                                  audio_settings.get("acodec"),
                                  audio_settings.get("sample_rate"),
                                  audio_settings.get("channels"),
                                  audio_settings.get("channel_layout"),
                                  audio_settings.get("audio_bitrate"))

            # Prepare the streams
            w.PrepareStreams()

            # These extra options should be set in an extra method
            # No feedback is given to the user
            # TODO: Tell user if option is not available
            if export_type in [_("Audio Only")]:
                # Muxing options for mp4/mov
                w.SetOption(openshot.AUDIO_STREAM, "muxing_preset", "mp4_faststart")
            else:
                # Muxing options for mp4/mov
                w.SetOption(openshot.VIDEO_STREAM, "muxing_preset", "mp4_faststart")
                # Set the quality in case crf, cqp or qp was selected
                if "crf" in self.txtVideoBitRate.text():
                    w.SetOption(openshot.VIDEO_STREAM, "crf", str(int(video_settings.get("video_bitrate"))) )
                elif "cqp" in self.txtVideoBitRate.text():
                    w.SetOption(openshot.VIDEO_STREAM, "cqp", str(int(video_settings.get("video_bitrate"))) )
                elif "qp" in self.txtVideoBitRate.text():
                    w.SetOption(openshot.VIDEO_STREAM, "qp", str(int(video_settings.get("video_bitrate"))) )


            # Open the writer
            w.Open()

            # Notify window of export started
            title_message = ""
            self.ExportStarted.emit(export_file_path, video_settings.get("start_frame"), video_settings.get("end_frame"))

            progressstep = max(1 , round(( video_settings.get("end_frame") - video_settings.get("start_frame") ) / 1000))
            start_time_export = time.time()
            start_frame_export = video_settings.get("start_frame")
            end_frame_export = video_settings.get("end_frame")
            last_exported_time = time.time()
            last_displayed_exported_portion = 0.0

            # Write each frame in the selected range
            for frame in range(video_settings.get("start_frame"), video_settings.get("end_frame") + 1):
                # Update progress bar (emit signal to main window)
                end_time_export = time.time()
                if ((frame % progressstep) == 0) or ((end_time_export - last_exported_time) > 1):
                    current_exported_portion = (frame - start_frame_export) * 1.0  / (end_frame_export - start_frame_export)
                    if ((current_exported_portion - last_displayed_exported_portion) > 0.0):
                        # the log10 of the difference of the fraction of the completed frames is the negativ
                        # number of digits after the decimal point after which the first digit is not 0
                        digits_after_decimalpoint = math.ceil( -2.0 - math.log10( current_exported_portion - last_displayed_exported_portion ))
                    else:
                        digits_after_decimalpoint = 1
                    if digits_after_decimalpoint < 1:
                        # We want at least 1 digit after the decimal point
                        digits_after_decimalpoint = 1
                    if digits_after_decimalpoint > 5:
                        # We don't want not more than 5 digits after the decimal point
                        digits_after_decimalpoint = 5
                    last_displayed_exported_portion = current_exported_portion
                    format_of_progress_string = "%4." + str(digits_after_decimalpoint) + "f%% "
                    last_exported_time = time.time()
                    if ((frame - start_frame_export) != 0) & ((end_time_export - start_time_export) != 0):
                        seconds_left = round(( start_time_export - end_time_export )*( frame - end_frame_export )/( frame - start_frame_export ))
                        fps_encode = ((frame - start_frame_export)/(end_time_export-start_time_export))
                        if frame == end_frame_export:
                            title_message = _("Finalizing video export, please wait...")
                        else:
                            title_message = titlestring(seconds_left, fps_encode, "Remaining")

                    # Emit frame exported
                    self.ExportFrame.emit(
                        title_message,
                        video_settings.get("start_frame"),
                        video_settings.get("end_frame"),
                        frame,
                        format_of_progress_string
                    )

                    # Process events (to show the progress bar moving)
                    QCoreApplication.processEvents()

                # track largest frame processed
                max_frame = frame

                # Write the frame object to the video
                w.WriteFrame(self.timeline.GetFrame(frame))

                # Check if we need to bail out
                if not self.exporting:
                    break

            # Close writer
            w.Close()

            # Emit final exported frame (with elapsed time)
            seconds_run = round((end_time_export - start_time_export))
            title_message = titlestring(seconds_run, fps_encode, "Elapsed")

            self.ExportFrame.emit(
                title_message,
                video_settings.get("start_frame"),
                video_settings.get("end_frame"),
                max_frame,
                format_of_progress_string
            )

        except Exception as e:
            # TODO: Find a better way to catch the error. This is the only way I have found that
            # does not throw an error
            error_type_str = str(e)
            log.info("Error type string: %s" % error_type_str)

            if "InvalidChannels" in error_type_str:
                log.info("Error setting invalid # of channels (%s)" % (audio_settings.get("channels")))
                track_metric_error("invalid-channels-%s-%s-%s-%s" % (video_settings.get("vformat"), video_settings.get("vcodec"), audio_settings.get("acodec"), audio_settings.get("channels")))

            elif "InvalidSampleRate" in error_type_str:
                log.info("Error setting invalid sample rate (%s)" % (audio_settings.get("sample_rate")))
                track_metric_error("invalid-sample-rate-%s-%s-%s-%s" % (video_settings.get("vformat"), video_settings.get("vcodec"), audio_settings.get("acodec"), audio_settings.get("sample_rate")))

            elif "InvalidFormat" in error_type_str:
                log.info("Error setting invalid format (%s)" % (video_settings.get("vformat")))
                track_metric_error("invalid-format-%s" % (video_settings.get("vformat")))

            elif "InvalidCodec" in error_type_str:
                log.info("Error setting invalid codec (%s/%s/%s)" % (video_settings.get("vformat"), video_settings.get("vcodec"), audio_settings.get("acodec")))
                track_metric_error("invalid-codec-%s-%s-%s" % (video_settings.get("vformat"), video_settings.get("vcodec"), audio_settings.get("acodec")))

            elif "ErrorEncodingVideo" in error_type_str:
                log.info("Error encoding video frame (%s/%s/%s)" % (video_settings.get("vformat"), video_settings.get("vcodec"), audio_settings.get("acodec")))
                track_metric_error("video-encode-%s-%s-%s" % (video_settings.get("vformat"), video_settings.get("vcodec"), audio_settings.get("acodec")))

            # Show friendly error
            friendly_error = error_type_str.split("> ")[0].replace("<", "")

            # Prompt error message
            msg = QMessageBox()
            msg.setWindowTitle(_("Export Error"))
            msg.setText(_("Sorry, there was an error exporting your video: \n%s") % friendly_error)
            msg.exec_()

        # Notify window of export started
        self.ExportEnded.emit(export_file_path)

        # Close timeline object
        self.timeline.Close()

        # Clear all cache
        self.timeline.ClearAllCache()

        # Return scale mode to lower quality scaling (for faster previews)
        openshot.Settings.Instance().HIGH_QUALITY_SCALING = False

        # Handle end of export (for non-canceled exports)
        if self.s.get("show_finished_window") and self.exporting:
            # Hide cancel and export buttons
            self.cancel_button.setVisible(False)
            self.export_button.setVisible(False)

            # Reveal done button
            self.close_button.setVisible(True)

            # Make progress bar green (to indicate we are done)
            from PyQt5.QtGui import QPalette
            p = QPalette()
            p.setColor(QPalette.Highlight, Qt.green)
            self.progressExportVideo.setPalette(p)

            # Raise the window
            self.show()
        else:
            # Accept dialog
            super(Export, self).accept()

    def save_settings(self):
        if self.restoring_defaults:
            return  # Ignore saving if we are actively restoring defaults

        # Create a list to store the settings in order
        settings = []

        # Iterate over all children in the dialog in the order they are defined
        for child in self.findChildren(QWidget):
            if child.objectName().startswith("qt_"):
                continue
            setting = {}
            if isinstance(child, QLineEdit):
                setting['name'] = child.objectName()
                setting['type'] = 'QLineEdit'
                setting['value'] = child.text()
            elif isinstance(child, QComboBox):
                setting['name'] = child.objectName()
                setting['type'] = 'QComboBox'
                setting['value'] = child.currentIndex()
            elif isinstance(child, QSpinBox):
                setting['name'] = child.objectName()
                setting['type'] = 'QSpinBox'
                setting['value'] = child.value()
            elif isinstance(child, QCheckBox):
                setting['name'] = child.objectName()
                setting['type'] = 'QCheckBox'
                setting['value'] = child.isChecked()
            # Append the setting to the list
            if setting:
                settings.append(setting)

        # Save all settings as a JSON string
        get_app().updates.ignore_history = True
        get_app().updates.update(["export_settings"], settings)
        get_app().updates.ignore_history = False

        log.info("Export settings saved: %s", settings)

    def load_settings(self):
        # Load the JSON string from settings
        settings = get_app().project.get("export_settings")

        if not settings:
            log.info("No saved settings found.")
            return

        # Iterate over the list of settings and apply them in order
        for setting in settings:
            widget = self.findChild(QWidget, setting['name'])
            if widget:
                if setting['type'] == 'QLineEdit':
                    widget.setText(setting.get('value', ''))
                elif setting['type'] == 'QComboBox':
                    widget.setCurrentIndex(setting.get('value', 0))
                elif setting['type'] in ['QSpinBox', 'QDoubleSpinBox']:
                    widget.setValue(setting.get('value', widget.minimum()))
                elif setting['type'] == 'QCheckBox':
                    widget.setChecked(setting.get('value', False))

        # Update start / end frame after loading settings
        if self.checkStartFirstClip.isChecked():
            self.updateFrameRate(True)
        if self.checkEndLastClip.isChecked():
            self.updateFrameRate(True)

        log.info("Export settings loaded: %s", settings)

    def reject(self):
        self.save_settings()

        if self.exporting and not self.close_button.isVisible():
            # Show confirmation dialog
            _ = get_app()._tr
            result = QMessageBox.question(
                self,
                _("Export Video"),
                _("Are you sure you want to cancel the export?"),
                QMessageBox.No | QMessageBox.Yes)
            if result == QMessageBox.No:
                # Resume export
                return

        # Return scale mode to lower quality scaling (for faster previews)
        openshot.Settings.Instance().HIGH_QUALITY_SCALING = False

        # Cancel dialog
        self.exporting = False
        super(Export, self).reject()
